Non-diffracting linear-shift point-spread function by focus-multiplexed computer-generated hologram

Tomoya Nakamura; Shunsuke Igarashi; Yuichi Kozawa; Masahiro Yamaguchi

doi:10.1364/OL.43.005949

Non-diffracting linear-shift point-spread function by focus-multiplexed computer-generated hologram

Tomoya Nakamura, Shunsuke Igarashi, Yuichi Kozawa, Masahiro Yamaguchi

Division of Process and System Engineering

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

An Airy beam can be used to implement a non-diffracting self-bending point-spread function (PSF), which can be utilized for computational 3D imaging. However, the parabolic depth-dependent spot trajectory limits the range and resolution in rangefinding. In this Letter, we propose a novel pupil-phase-modulation method to realize a non-diffracting linear-shift PSF. For the modulation, we use a focus-multiplexed computer-generated hologram, which is calculated by multiplexing multiple lens-function holograms with 2D sweeping of the foci. With this method, the depth-dependent trajectory of the non-diffracting spot is straightened, which improves the range and resolution in rangefinding. The proposed method was verified by numerical simulations and optical experiments. The method can be applied to laser-based microscopy, time-of-flight rangefinding, and so on.

Original language	English
Pages (from-to)	5949-5952
Number of pages	4
Journal	Optics Letters
Volume	43
Issue number	24
DOIs	https://doi.org/10.1364/OL.43.005949
Publication status	Published - 2018 Dec 15

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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title = "Non-diffracting linear-shift point-spread function by focus-multiplexed computer-generated hologram",

abstract = "An Airy beam can be used to implement a non-diffracting self-bending point-spread function (PSF), which can be utilized for computational 3D imaging. However, the parabolic depth-dependent spot trajectory limits the range and resolution in rangefinding. In this Letter, we propose a novel pupil-phase-modulation method to realize a non-diffracting linear-shift PSF. For the modulation, we use a focus-multiplexed computer-generated hologram, which is calculated by multiplexing multiple lens-function holograms with 2D sweeping of the foci. With this method, the depth-dependent trajectory of the non-diffracting spot is straightened, which improves the range and resolution in rangefinding. The proposed method was verified by numerical simulations and optical experiments. The method can be applied to laser-based microscopy, time-of-flight rangefinding, and so on.",

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note = "Funding Information: Precursory Research for Embryonic Science and Technology (PRESTO) (JPM JPR15P8, JPM JPR1677); NJRC Mater. & Dev. (20181086). Publisher Copyright: {\textcopyright} 2018 Optical Society of America.",

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AU - Nakamura, Tomoya

AU - Igarashi, Shunsuke

AU - Kozawa, Yuichi

AU - Yamaguchi, Masahiro

N1 - Funding Information: Precursory Research for Embryonic Science and Technology (PRESTO) (JPM JPR15P8, JPM JPR1677); NJRC Mater. & Dev. (20181086). Publisher Copyright: © 2018 Optical Society of America.

PY - 2018/12/15

Y1 - 2018/12/15

N2 - An Airy beam can be used to implement a non-diffracting self-bending point-spread function (PSF), which can be utilized for computational 3D imaging. However, the parabolic depth-dependent spot trajectory limits the range and resolution in rangefinding. In this Letter, we propose a novel pupil-phase-modulation method to realize a non-diffracting linear-shift PSF. For the modulation, we use a focus-multiplexed computer-generated hologram, which is calculated by multiplexing multiple lens-function holograms with 2D sweeping of the foci. With this method, the depth-dependent trajectory of the non-diffracting spot is straightened, which improves the range and resolution in rangefinding. The proposed method was verified by numerical simulations and optical experiments. The method can be applied to laser-based microscopy, time-of-flight rangefinding, and so on.

AB - An Airy beam can be used to implement a non-diffracting self-bending point-spread function (PSF), which can be utilized for computational 3D imaging. However, the parabolic depth-dependent spot trajectory limits the range and resolution in rangefinding. In this Letter, we propose a novel pupil-phase-modulation method to realize a non-diffracting linear-shift PSF. For the modulation, we use a focus-multiplexed computer-generated hologram, which is calculated by multiplexing multiple lens-function holograms with 2D sweeping of the foci. With this method, the depth-dependent trajectory of the non-diffracting spot is straightened, which improves the range and resolution in rangefinding. The proposed method was verified by numerical simulations and optical experiments. The method can be applied to laser-based microscopy, time-of-flight rangefinding, and so on.

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Non-diffracting linear-shift point-spread function by focus-multiplexed computer-generated hologram

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ASJC Scopus subject areas

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